紧凑型SR环历史机的现状与未来规划

T. Hori, A. Miyamoto, K. Goto, H. Tsutsui
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摘要

广岛同步辐射中心(HSRC)是日本同步辐射科学领域的研究和教育的公共设施。该机构的主要作用是促进全国材料科学,特别是固体物理领域的SR研究活动,同时促进相关领域的教育。HiSOR是HSRC于1996年建成的一个紧凑型同步辐射源,是一个典型的VUV -软x射线源(0.87 keV临界光子能量),类似于新加坡的Helios。赛道型环结构紧凑,其自然发射度400π nm·rad不小于其他标准尺寸环。有两个波动器,一个线性26-300 eV范围和另一个螺旋/线性4-40 eV。该设备最突出的特点在于与光束线的良好结合,以获得高分辨率(低于1mev)的光电发射光谱。正常工作时间为工作日09:00 - 20:00,存储电流为350毫安,300毫安时寿命为8小时。HiSOR已经运行了10多年,因此,是时候考虑未来设施的改进了。其动机是追求在材料科学(固体物理)领域的领先地位,利用SR进行高分辨率光电发射光谱。提出了一些升级后的候选HiSOR。
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PRESENT STATUS AND FUTURE PLAN OF COMPACT SR RING HiSOR
Hiroshima Synchrotron Radiation Center (HSRC) is a common facility for research and education in the field of synchrotron radiation science in Japan. The major role of the facility is to promote nationwide SR research activities in materials science, especially in solid state physics, and education in the related fields simultaneously. HiSOR is a compact synchrotron radiation source of HSRC constructed in 1996 as a typical VUV — soft X-ray source (0.87 keV critical photon energy) similar to Helios in Singapore. Because of a compact racetrack-type ring, its natural emittance 400π nm · rad is not so small as the other standard-sized rings. There are two undulators, one linear for 26–300 eV range and the other helical/linear for 4–40 eV. The most outstanding feature of the facility lies in the good combination with beamlines to attain high-resolution (below 1 meV) for photoemission spectroscopy. It is routinely operated from 09:00 to 20:00 on weekdays at the stored current starting from 350 mA with 8 h lifetime at 300 mA. HiSOR has been running over 10 years, thus, it is time to think about the future improvements of the facility. The motivation is to pursue the leading position in the field of materials science (solid state physics) using SR for high-resolution photoemission spectroscopy. Some candidates for the upgraded HiSOR are presented.
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